ADC1173CIMTC National Semiconductor, ADC1173CIMTC Datasheet - Page 10

ADC1173CIMTC

Manufacturer Part Number

ADC1173CIMTC

Description

8-Bit/ 3-Volt/ 15MSPS/ 33mW A/D Converter

Manufacturer

National Semiconductor

Datasheet

1.ADC1173CIMTC.pdf (17 pages)

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Functional Description

The ADC1173 uses a new, unique architecture to achieve

7.4 effective bits at and maintains superior dynamic perfor-

mance up to

The analog signal at V

by V

Input voltages below V

sist of all zeroes. Input voltages above V

output word to consist of all ones. V

to the analog supply voltage, AV

0 to 2.0 Volts. V

positive than V

If V

are connected together, the nominal values of V

are 1.56V and 0.36V, respectively. If V

nected together and V

Data is acquired at the falling edge of the clock and the digi-

tal equivalent of the data is available at the digital outputs 2.5

clock cycles plus t

as the clock signal is present at pin 12. The Output Enable

pin OE, when low, enables the output pins. The digital out-

puts are in the high impedance state when the OE pin is

high.

Applications Information

1.0 The Analog Input

The analog input of the ADC1173 is a switch followed by an

integrator. The input capacitance changes with the clock

level, appearing as 4 pF when the clock is low, and 11 pF

when the clock is high. Since a dynamic capacitance is more

difficult to drive than a fixed capacitance, choose an amplifier

that can drive this type of load. The CLC409, CLC440,

LM6152, LM6154, LM6181 and LM6182 have been found to

be excellent devices for driving the ADC1173. Do not drive

the input beyond the supply rails.

Figure 3 shows an example of an input circuit using the

LM6181. This circuit has both gain and offset adjustments. If

is 1.38V.

and V

RTS

⁄

the clock frequency.

are digitized to eight bits at up to 20 MSPS.

are connected together and V

should always be at least 1.0 Volt more

later. The ADC1173 will convert as long

that is within the voltage range set

is grounded, the nominal value of

will cause the output word to con-

, while V

has a range of 1.0 Volt

and V

will cause the

has a range of

RTS

and V

are con-

RBS

you desire to eliminate these adjustments, you should re-

duce the signal swing to avoid clipping at the ADC1173 out-

put that can result from normal tolerances of all system com-

ponents. With no adjustments, the nominal value for the

amplifier feedback resistor is 510

the inverting input should be changed to 860

to +3V rather than to the Offset Adjust potentiometer.

2.0 Reference Inputs

The reference inputs V

ence Bottom) are the top and bottom of the reference ladder.

Input signals between these two voltages will be digitized to

8 bits. External voltages applied to the reference input pins

should be within the range specified in the Operating Ratings

table (1.0V to AV

Any device used to drive the reference pins should be able to

source sufficient current into the V

current from the V

The reference ladder can be self-biased by connecting V

to V

tom reference voltages of approximately 1.56V and 0.36V,

respectively, with V

Figure 3 . If V

analog ground, a top reference voltage of approximately

1.38V is generated. The top and bottom of the ladder should

be bypassed with 10µF tantalum capacitors located close to

the reference pins.

The reference self-bias circuit of Figure 3 is very simple and

performance is adequate for many applications. Superior

performance can generally be achieved by driving the refer-

ence pins with a low impedance source.

By forcing a little current into or out of the top and bottom of

the ladder, as shown in Figure 4 , the top and bottom refer-

ence voltages can be trimmed. The resistive divider at the

amplifier inputs can be replaced with potentiometers. The

LMC662 amplifier shown was chosen for its low offset volt-

age and low cost. Note that a negative power supply is

needed for these amplifiers as their outputs may be required

to go slightly negative to force the required reference

voltages.

RTS

and connecting V

and V

for V

pin.

RTS

= 3.0V. This connection is shown in

are tied together, but V

(Reference Top) and V

and 0V to (AV

to V

RBS

and the 5.1k resistor at

to provide top and bot-

pin and sink sufficient

- 1.0V) for V

and returned

is tied to

(Refer-

ADC1173CIMTC National Semiconductor, ADC1173CIMTC Datasheet - Page 10

ADC1173CIMTC

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